CHEBI:145538 - N-acylethanolamine phosphate

Main

ChEBI Ontology

Automatic Xrefs

Reactions

Pathways

Models

ChEBI Name N-acylethanolamine phosphate ChEBI ID CHEBI:145538 ChEBI ASCII Name N-acylethanolamine phosphate Definition Any carboxamide resulting from the formal condensation of a carboxylic acid with the amino group of O-phosphoethanolamine (2-aminoethyl dihydrogen phosphate). Stars This entity has been manually annotated by the ChEBI Team. Download Molfile XML SDF Find compounds which contain this structure Find compounds which resemble this structure Take structure to the Advanced Search Formula C3H7NO5PR Net Charge 0 Average Mass (excl. R groups) 168.065 Monoisotopic Mass (excl. R groups) 168.00618 SMILES N(CCOP(O)(=O)O)C(*)=O ChEBI Ontology Outgoing N-acylethanolamine phosphate (CHEBI:145538) has functional parent O-phosphoethanolamine (CHEBI:17553) N-acylethanolamine phosphate (CHEBI:145538) is a carboxamide (CHEBI:37622) N-acylethanolamine phosphate (CHEBI:145538) is conjugate acid of N-acylethanolamine phosphate(2−) (CHEBI:145497) Incoming 2-{[4-(TRIFLUOROMETHOXY)BENZOYL]AMINO}ETHYL DIHYDROGEN PHOSPHATE (CHEBI:42469) is a N-acylethanolamine phosphate (CHEBI:145538) N-oleoylethanolamine phosphate (CHEBI:145794) is a N-acylethanolamine phosphate (CHEBI:145538) N-BROMOACETYL-AMINOETHYL PHOSPHATE (CHEBI:47237) is a N-acylethanolamine phosphate (CHEBI:145538) Phospho-anandamide (CHEBI:144413) is a N-acylethanolamine phosphate (CHEBI:145538) N-acylethanolamine phosphate(2−) (CHEBI:145497) is conjugate base of N-acylethanolamine phosphate (CHEBI:145538) IUPAC Name 2-acylaminoethyl dihydrogen phosphate Synonyms Sources N-acylaminoethyl dihydrogen phosphate ChEBI N-acylethanolamine phosphates ChEBI NAEPA ChEBI Citation Lynch KR, Macdonald TL (2002) Structure-activity relationships of lysophosphatidic acid analogs. Biochimica et biophysica acta 1582, 289-294 (Source: SUBMITTER) [PubMed:12069840] [show Abstract] The physiologic effects of lysophosphatidic acid (LPA) remain poorly understood. Our ignorance is due in part to lack of medicinal chemistry focussed on this pleiotropic lipid mediator. Beginning with commercially available phospholipids tested on whole cells or tissues and continuing with synthetic analogs tested at recombinant LPA receptors, the features of the LPA pharmacophore have become visible. An active LPA mimetic has a long aliphatic chain terminating in a phosphate monoester; bulky substitutions at the second carbon (relative to the phosphate) are tolerated poorly and a dissociable proton near the phosphate group seems required for optimal activity. These requirements are met by substituting ethanolamine for the glyceryl group in LPA. Substitutions at the second carbon of the N-acyl ethanolamide phosphoric acid (NAEPA) result in highly active agonists, including some receptor type selective compounds, if the substituent is small (e.g. methyl, methylene amino, methylene hydroxy). However, bulky hydrophobic substituents lead to compounds with decreased agonist, or even antagonist, activities. Examination of naturally occurring plant lipids led to the discovery of another LPA receptor antagonist, di-octyl glyceryl pyrophosphate. An unexplained result obtained in testing the LPA mimetics is the strong stereoselectivity exhibited by some responses (e.g. calcium mobilization) and the lack of stereoselectivity of other responses (e.g. platelet aggregation). Last Modified 14 January 2020